US7675994B2 - Packet identification mechanism at the transmitter and receiver for an enhanced ATSC 8-VSB system - Google Patents
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N21/00—Selective content distribution, e.g. interactive television or video on demand [VOD]
- H04N21/20—Servers specifically adapted for the distribution of content, e.g. VOD servers; Operations thereof
- H04N21/23—Processing of content or additional data; Elementary server operations; Server middleware
- H04N21/238—Interfacing the downstream path of the transmission network, e.g. adapting the transmission rate of a video stream to network bandwidth; Processing of multiplex streams
- H04N21/2383—Channel coding or modulation of digital bit-stream, e.g. QPSK modulation
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N7/00—Television systems
- H04N7/015—High-definition television systems
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L1/00—Arrangements for detecting or preventing errors in the information received
- H04L1/004—Arrangements for detecting or preventing errors in the information received by using forward error control
- H04L1/0041—Arrangements at the transmitter end
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L1/00—Arrangements for detecting or preventing errors in the information received
- H04L1/004—Arrangements for detecting or preventing errors in the information received by using forward error control
- H04L1/0056—Systems characterized by the type of code used
- H04L1/0059—Convolutional codes
- H04L1/006—Trellis-coded modulation
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L1/00—Arrangements for detecting or preventing errors in the information received
- H04L1/004—Arrangements for detecting or preventing errors in the information received by using forward error control
- H04L1/0056—Systems characterized by the type of code used
- H04L1/007—Unequal error protection
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L27/00—Modulated-carrier systems
- H04L27/02—Amplitude-modulated carrier systems, e.g. using on-off keying; Single sideband or vestigial sideband modulation
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N21/00—Selective content distribution, e.g. interactive television or video on demand [VOD]
- H04N21/40—Client devices specifically adapted for the reception of or interaction with content, e.g. set-top-box [STB]; Operations thereof
- H04N21/43—Processing of content or additional data, e.g. demultiplexing additional data from a digital video stream; Elementary client operations, e.g. monitoring of home network or synchronising decoder's clock; Client middleware
- H04N21/438—Interfacing the downstream path of the transmission network originating from a server, e.g. retrieving encoded video stream packets from an IP network
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- H04L1/004—Arrangements for detecting or preventing errors in the information received by using forward error control
- H04L1/0056—Systems characterized by the type of code used
- H04L1/0064—Concatenated codes
- H04L1/0065—Serial concatenated codes
Definitions
- the present invention relates to digital transmission systems and particularly, to the Advanced Television Systems Committee (ATSC) Digital Television (DTV) standard (A/53).
- ATSC Advanced Television Systems Committee
- DTV Digital Television
- the invention describes a method for transmitting a robust bit-stream along with the standard bit-stream that is in compliance with the ATSC standard, an further describes a method for enabling identification of robust packets at a receiver device.
- the ATSC standard for high-definition television (HDTV) transmission over terrestrial broadcast channels uses a signal that comprises a sequence of twelve (12) independent time-multiplexed trellis-coded data streams modulated as an eight (8) level vestigial sideband (VSB) symbol stream with a rate of 10.76 MHz.
- This signal is converted to a six (6) MHz frequency band that corresponds to a standard VHF or UHF terrestrial television channel, over which the signal is broadcast at a data rate of 19.39 million bits per second (Mbps). Details regarding the (ATSC) Digital Television Standard and the latest revision A/53 is available at http://www.atsc.org/.
- FIG. 1 is a block diagram generally illustrating an exemplary prior art high definition television (HDTV) transmitter 100 .
- MPEG compatible data packets are first randomized in a data randomizer 105 and each packet is encoded for forward error correction (FEC) by a Reed Solomon (RS) encoder unit 110 .
- the data packets in successive segments of each data field are then interleaved by data interleaver 120 , and the interleaved data packets are then further interleaved and encoded by trellis encoder unit 130 .
- Trellis encoder unit 130 produces a stream of data symbols baying three (3) bits each. One of the three bits is pre-coded and the other two bits are produced by a four (4) state trellis encoder. The three (3) bits are then mapped to an 8-level symbol.
- a prior art trellis encoder unit 130 comprises twelve (12) parallel trellis encoder and pre-coder units to provide twelve interleaved coded data sequences.
- multiplexer 140 the symbols of each trellis encoder unit are combined with “segment sync” and “field sync” synchronization bit sequences 150 from a synchronization unit (not shown).
- a small in-phase pilot signal is then inserted by pilot insertion unit 160 and optionally pre-equalized by filter device 165 .
- the symbol stream is then subjected to vestigial sideband (VSB) suppressed carrier modulation by VSB modulator 170 .
- VSB modulator 170 vestigial sideband
- the symbol stream is then finally up-converted to a radio frequency by radio frequency (RF) converter 180 .
- RF radio frequency
- FIG. 2 is a block diagram illustrating an exemplary prior art high definition television (HDTV) receiver 200 .
- the received RF signal is down-converted to an intermediate frequency (IF) by tuner 210 .
- the signal is then filtered and converted to digital form by IF filter and detector 220 .
- the detected signal is then in the form of a stream of data symbols that each signify a level in an eight (8) level constellation.
- the signal is then provided to NTSC rejection filter 230 and to synchronization unit 240 .
- the signal is subjected to equalization and phase tracking by equalizer and phase tracker 250 .
- the recovered encoded data symbols are then subjected to trellis decoding by trellis decoder unit 260 .
- the decoded data symbols are then further de-interleaved by data de-interleaver 270 .
- the data symbols are then subjected to Reed Solomon decoding by Reed Solomon decoder 280 . This recovers the MPEG compatible data packets transmitted by transmitter 100 .
- a digital signal transmission system and method comprising: a means for encoding packets to be transmitted as either 8-VSB modulated bit stream symbols or, encoding robust packets for transmission as robust bit stream symbols; a transmitter device for transmitting a robust bit-stream comprising the robust bit stream symbols separately, or in conjunction with a standard bit-stream comprising 8-VSB modulated bit stream symbols over a fixed bandwidth communications channel for receipt by a receiver device; and, a means for generating information needed for decoding robust packets at the receiver device, the transmitter device multiplexing the generated packet decoding information with the standard bit-stream and the robust bit-stream for enabling appropriate symbol decoding at the receiver device.
- an optional non-systematic Reed-Solomon encoder is provided to add parity bytes to the robust bit-stream packets.
- the standard 8-VSB bit-stream will be encoded using the ATSC FEC scheme (A/53). Packets transmitted using the inserted new bit-stream will be ignored by the transport layer decoder of the existing receiver, thus reducing the effective payload that can be decodable by existing receivers.
- FIG. 1 illustrates a block diagram of an exemplary high definition television (HDTV) transmitter according to the prior art
- FIG. 2 illustrates a block diagram of an exemplary high definition television (HDTV) receiver according to the prior art
- FIG. 3 is a representative functional diagram of the improved digital transmission system 300 for robust (pseudo 2-VSB and 4-VSB) and standard bit streams according to the invention
- FIG. 4 is an illustration depicting a data segment comprising the FEC encoded bit streams transmitted by the improved digital transmission system 300 of the invention
- FIG. 5( a ) illustrates a trellis encoder block 350 employs trellis code intrasegment interleaving according to the prior art
- FIG. 5( b ) illustrates a block diagram of one exemplary prior art trellis encoder and pre-coder unit (one of twelve such units shown in FIG. 5( a ) and an eight (8) level symbol mapper; and,
- FIG. 6 illustrates the result of a packet duplication process implemented in the packet formatter device for robust streams
- FIG. 9( a ) illustrates a single MPEG field 400 comprising 312 packets
- FIG. 10 illustrates a block diagram of a novel ATSC receiver 500 capable of decoding both the standard and new (robust) bit-streams.
- each of the proposed new ATSC bit streams is robust (“Robust Streams”) in the sense that the error correcting capacity of bits in the Robust Stream is greater than the error correcting capacity of bits in the standard ATSC 8-VSB bit stream.
- the present invention herein described in accordance with FIG. 3 is directed to a novel digital transmission system 300 that enables the flexible transmission and receipt of MPEG compatible packets as robust and standard digital bit streams for accommodating a large range of carrier-to-noise ratios and channel conditions. Moreover, the present invention herein described relates to a digital transmission system implementing novel methods for enabling backward compatibility with existing digital receiver devices, and, specifically, providing a mechanism for transmitting defined parameters used to correctly identify robust MPEG packets at a receiver device.
- FIG. 3 A representative functional diagram of the improved digital transmission system 300 for transmitting robust pseudo 2-VSB or 4-VSB bit-streams (in addition to standard bit streams) according to the invention is now described with respect to FIG. 3 .
- the system 300 includes an input path 303 for receiving packets 307 and generating digital bit streams according to the existing ATSC 8-VSB standard or, as new (robust) pseudo 2-VSB, 4-VSB or H-VSB modulation bitstreams.
- all robust packets are processed and transmitted by system 300 in a backward compatible manner, meaning that existing receivers will be able to identify the robust stream packets as valid RS (Reed-Solomon) code-words. It may do so, for instance, by enabling a packet identifier (PID) corresponding to the robust stream packets (for existing receivers) to comprise a Null packet header.
- PID packet identifier
- the Threshold of Visibility (TOV) for the new robust stream may be as low as 8.5 dB; 2) enablement of significant performance gains for the new robust stream in the presence of strong static multi-path and dynamic multi-path; 3) permit a trade-off of data rates for robustness; 4) three different system modes: pseudo 2-VSB, 4-VSB, and Hierarchical VSB (H-VSB); 5) an optional Reed-Solomon encoder to satisfy backward compatibility requirements; 6) the broadcaster may choose the amount of mix of the robust stream and the standard stream. The mix percentage may range from 0% (standard stream only) to 100% (robust stream only); and, 7) several options are provided for the placement of robust packets within a frame.
- TOV Threshold of Visibility
- a number of selectable parameters must first be chosen and transmitted to the receiver device.
- An efficient method for conveying this information to the receiver device is now herein described.
- some of the reserved Frame Sync bits defined in accordance with the A/53 ATSC standard may be used for this purpose.
- FIG. 4 As shown in FIG. 4 , according to the ATSC A/53 standard, Revision B (Aug. 7, 2001), a VSB transmitter organizes data transmission as a series of data frames (not shown) with each data frame comprising two data fields, each data field comprising 313 data segments.
- Each Data Field is periodic (approximately 24.2 ms) and starts with one complete Data Segment referred to as a Data Field Sync (not shown) which is a unique synchronizing signal.
- the remaining 312 data segments each carry the equivalent of data from one 188-byte transport packet plus its associated forward error correction (FEC) overhead (generated by the RS coder and the trellis coder).
- FEC forward error correction
- a data field sync segment 20 is illustrated in FIG. 4 which comprises 832 symbols including a Data Segment Sync 25 signal which comprises four (4) symbols transmitted in binary form and provides segment synchronization.
- the remaining 828 symbols of the data segment 20 comprises several symbol fields including pseudo-noise sequences 26 a , . . .
- a reserved symbol field 27 comprising 104 symbols. According to the invention, it is within this reserved symbol field 27 where the set of parameters for identifying the type of digital bit-stream transmission, including standard and new robust (pseudo 2-VSB, 4-VSB and H-VSB) bit-streams in the backward compatible manner, for a receiver are communicated.
- Table 1 indicates the parameters that have to be defined in order to correctly identify robust packets at a receiver. As these have to be interpreted at an equalizer device of the receiver, they are heavily protected using robust error correcting codes.
- the encoded code-word is preferably inserted in the 104 reserved symbol field 27 of a Data Field Sync segment 20 .
- Table 1 particularly indicates the use of four parameters (and their respective number of bits) to identify robust packets.
- a first parameter “MODE” includes specification of the robust packets and is used in identifying the format of the robust packets. Two bits are used to identify four possible modes as now described with respect to Table 2:
- the MODE 00 indicates a standard stream with no robust packets to be transmitted;
- MODE 01 indicates an H-VSB stream;
- MODE 10 indicates an 4-VSB stream; and
- the second “NRS” (Non-systematic Reed-Solomon coder) parameter indicates whether the non-systematic RS coder is to be used to encode the robust packets.
- a single bit is used to identify the two possible NRS modes as now described with respect to Table 3:
- Non-systematic RS coder is not used 1
- Non-systematic RS coder is used
- the third “NRP” parameter indicates the Number of Robust Packets in a frame.
- Table 6 may be used to map this 4 bit number to the number of robust packets in a frame.
- the fourth “RPP” parameter indicates the Robust Packets' Position in a frame.
- Robust packets may be either distributed uniformly within a frame or arranged contiguously within a frame starting from an initial position. Note that uniform distribution is not possible for all values of NRP.
- Table 7 describes the various types of robust packet distributions within a frame.
- robust symbol mapping techniques are utilized to get performance advantage for the new robust bit-stream. This necessitates a control mechanism to track bytes belonging to the robust bit-stream and the standard bit-stream through the FEC section of the transmitter.
- the transmitter also implements the ‘Packet Formatter’ block 330 ( FIG. 3 ) in the data-path to re-format data bytes belonging the robust bit-stream, as will be explained in greater detail.
- FIG. 3 is a block diagram depicting the ATSC transmitter 300 for transmitting robust bit streams according to the invention.
- the ATSC transmitter 300 according to the invention implements a randomizer element 310 for first changing the input data byte value according to a known pattern of pseudo-random number generation.
- the data randomizer XORs all the incoming data bytes with a 16-bit maximum length pseudo random binary sequence (PRBS) which is initialized at the beginning of a data field.
- PRBS maximum length pseudo random binary sequence
- the output randomized data is then input to an Reed Solomon (RS) encoder element 320 which operates on a data block size of 187 bytes, and adds twenty (20) RS parity bytes for error correction to result in a RS block size total of 207 bytes transmitted per data segment. It is these bytes that will then be post processed and sent using robust constellations.
- the 207 byte data segment is then input to the packet formatter 330 which functions to re-format the data bytes belonging to the robust bit-stream accordingly.
- the packet formatter 330 essentially buffers and groups the incoming robust bit-strewn into groups of 207 bytes and passes the standard bit-stream bytes without any modification. In general, only 4 bits of each byte at the packet formatter output, the LSBs (6,4,2,0), correspond to the incoming stream. The other 4 bits of each byte, the MSBs (7,5,3,1), may be set to any value for reasons as will be explained in greater detail herein.
- the convolutional interleaver mechanism 340 After byte re-formatting in the packet formatter 330 , the data is input to the convolutional interleaver mechanism 340 for scrambling the sequential order of the data stream according to the ATSC A/53 standard.
- the tracking of bytes associated with each robust packet or standard packet is performed in a concurrent processing control path 304 as shown in FIG. 3 .
- the interleaved, RS-encoded data bytes are then trellis coded by the trellis encoder device 350 which employs 2 ⁇ 3 rate trellis code with one unencoded bit which is precoded, i.e., one input bit is encoded into two output bits using a 1 ⁇ 2 rate convolutional code while the other bit is precoded.
- the trellis encoder device 350 which employs 2 ⁇ 3 rate trellis code with one unencoded bit which is precoded, i.e., one input bit is encoded into two output bits using a 1 ⁇ 2 rate convolutional code while the other bit is precoded.
- the trellis encoder 350 employs trellis code intrasegment interleaving and symbol mapping, and comprises, for example, twelve identical trellis encoders and precoders 351 1 to 311 12 operating on interleaved data symbols.
- a more robust trellis encode mapping scheme (pseudo 2-VSB or 4-VSB) system is implemented for tracked robust symbols as compared to the standard 8-VSB symbol mapping scheme that is implemented for tracked normal (standard) symbols.
- a 1 ⁇ 3 trellis encoding is implemented such that one bit of input is mapped into three bits which is mapped into one symbol for robust streams.
- two bits are mapped into three bits according to the conventional 8-level symbol mapping technique for standard packets.
- SS standard stream
- all 8-bits of each byte carry information.
- the robust stream it is desirable that only four bits of each byte carry information.
- the trellis encoder 350 receives a byte, of which only 4-bits (LSBs) contain valid information.
- the information bits e.g., LSBs bits ( 6 , 4 , 2 , 0 )
- X2 is subsequently determined to obtain the particular symbol mapping scheme, e.g., pseudo 2-VSB.
- the 4-MSBs of the byte e.g., bits ( 7 , 5 , 3 , 1 ) will be replaced by these values.
- the 2-VSB mode is obtained by making Z2 and Z1 equal to the information bit X1 (i.e., LSB bits ( 6 , 4 , 2 , 0 )) in the trellis encoder unit 352 of FIG. 5( b ).
- the X2 is then calculated such that, when precoded, it results in Z2.
- This operation combined with the existing symbol mapping scheme implemented at the 8-level symbol mapper 354 , results in symbols from the alphabet ⁇ 7, ⁇ 5,5,7 ⁇ .
- This is essentially a pseudo 2-VSB signal in the sense that the information bit is transmitted as the sign of this symbol.
- the actual symbol is a valid trellis coded 4-level symbol which can be decoded by existing trellis decoder devices.
- the 4-VSB mode is obtained by making Z1 equal to the information bit in the trellis encoder unit 352 .
- the X2 is then calculated such that when pre-coded, Z2 equals Z0.
- These operation and the use of the existing symbol mapping results in symbols from the alphabet ⁇ 7, ⁇ 3,3,7 ⁇ which is essentially a trellis coded 4-VSB symbol.
- the actual 4-level symbol is a valid trellis coded symbol that can be decoded by existing trellis decoders.
- packets are formatted such that only the information is placed at the bit location suitable for processing by the trellis encoder.
- the information bit need only be placed in the robust byte at the desirable bit position for robust trellis encoding and symbol mapping.
- two packets are generated: one being the information carrier packet, and the other functioning as a placeholder packet.
- the packet formatter 330 only the information carrier packet (not the placeholder packet) is processed. Particularly as shown in FIG. 6 , the packet formatter generates two robust bytes (packets) 332 a , 332 b for each byte 331 of each packet received from the robust stream.
- the robust packet formatter ensures that the information bits is provided at the desired bit position X1, X2 for appropriate robust mapping at the trellis encoder 352 for forming the Z0-Z2 inputs in accordance with the desired robust symbol mapping scheme employed.
- the “non-systematic” Reed-Solomon encoder 375 is used, then only 187 bytes will be created to carry 4*187 bits of the robust stream. The remaining 20 bytes will be determined after these 187 bytes are trellis coded in a fashion to obtain (pseudo) 2-VSB and 4-VSB symbols.
- the 187 bytes containing the information stream and the other 20 bytes, the specific values of which are at this processing stage yet to be determined, are permuted in such a way that after the data interleaver 340 , these 20 bytes will appear at the end of the 187 bytes.
- the values of the 20 bytes can be set to any value. If, however, the “non-systematic” Reed-Solomon encoder 375 is not used, then all the LSBs of the 207 bytes will correspond to 207*4 bits from the incoming robust bit-stream. In this case, the 187-byte MPEG compliant packet will be transmitted using 828*2 symbols.
- Table 8 summarizes the packet formatter 330 functionality for different combinations of the MODE and the NRS parameters.
- the packet formatter additionally inserts ‘place holders’ for the additional header and parity bytes.
- NRS non-systematic RS-encoding
- the packet formatter additionally inserts ‘place holders’ for the additional header and parity bytes.
- a more detailed discussion regarding the parity byte ‘place holder’ insertion mechanism is described in commonly-owned, co-pending U.S. patent application Ser. No. 10/127,531, filed Apr. 22, 2002, now U.S. Pat. No. 7,111,221, the whole contents and disclosure of which is incorporated by reference as if fully set forth herein.
- the input to the transmission subsystem from the transport subsystem is a 19.39 Mbps serial data stream comprising 188-byte MPEG compatible data packets.
- These MPEG packets are organized as groups of 312 packets to comprise a single MPEG field 400 as shown in FIG. 9( a ).
- Each packet is classified as belonging to either a standard or robust bit-stream depending on the control information (MODE, NRP and RPP).
- MODE, NRP and RPP determine which packets in the group of 312 packets (MPEG field) belong to the robust bit-stream.
- NRP as defined above in Table 6 determines the number of robust packets in an MPEG field
- RPP Table 7 identifies the position of robust packets within that field.
- the MODE parameter is used by the trellis encoder for encoding robust packets. It should be understood that the above condition implies that the control parameters may be changed only every 312 packets (i.e. once for each MPEG field).
- the spacing between the robust packets is determined by the factor (312/78). So, for these set of parameters every fourth packet in an MPEG field starting from the first packet is a robust packet.
- the MODE, NRP and RPP parameters associated with each group of 312 packets of a received MPEG field is implemented for robust packet identification.
- the control parameters the MODE, NRP and RPP parameters may only be changed every 312 packets, i.e., one MPEG field.
- the parameters are particularly input to a Generate ‘hd_sd_in’ processing block 315 which implements logic for generating control information at the packet level based on MODE, NRP and RPP parameters.
- the output 325 of this block is a bit value (e.g., ‘1’) if the packet currently being processed belongs to the new robust stream (NS) or, is another bit value (e.g., ‘0’), if the packet received belongs to the standard stream (SS). More specifically, the output 325 of the Generate ‘hd_sd_in’ processing block 315 generates a bit for each byte present in each packet of the current MPEG field, e.g., 312 packets. Once the hd_sd generation block 315 identifies each packet, it will output a ‘1’ for each robust byte and a ‘0’ for each standard byte.
- the coding gain is obtained by using different trellis encoding schemes for bytes belonging to different bit-streams.
- the bytes of the bit-streams are rearranged by the data interleaver 340 and trellis interleaver 350 (of FIG. 5( a ))
- corresponding tracking bits 325 generated by block 315 are accordingly rearranged by the convolutional bit interleaver 341 and by the trellis interleaver blocks 345 by the time they are encoded by the trellis coder 350 .
- the convolutional bit interleaver block 341 is similar in function to the convolutional byte interleaver 340 specified in the ATSC A/53 standard, except that the memory element is 1 bit instead of 1 byte. This block is used to track bytes through the convolutional interleaver 340 . That is, in a synchronized fashion, each interleaved byte output from the convolutional interleaver block 340 is tracked by the convolutional bit interleaver 341 so that the integrity of the tracking bits in the control path 304 that correspond to each of the bytes to be transmitted, is preserved.
- the trellis encoder 350 uses either robust encoding or standard encoding in the manner as explained in greater detail herein.
- the output ‘td_hd_sd’ 355 of control block 345 is equal to 1 when the trellis encoder output symbol belongs to a new (robust) stream (NS) and, is equal to 0 when the output symbol belongs to the standard stream (SS).
- the trellis encoder uses this information during symbol mapping. More particularly, each ‘td_hd_sd’ output 355 corresponds to a symbol generated at each of the twelve trellis encoders.
- the trellis interleaver block 345 thus tracks the corresponding symbols (robust or standard) output of the trellis encoder, and not bytes as in the other control blocks of processing path 304 . It should be understood that, in view of FIG. 3 , in accordance with the ‘td_hd_sd’ output 355 indicating symbols belonging to robust or normal (standard) packets, the trellis encoder 350 will map the symbols according to the associated modulation schemes.
- the encode sync header block 360 performs this function and, after encoding, the encode sync header block 360 places the encoded code-word in a fixed location (reserved bits) in the Frame Sync segment 370 . These control parameters are extracted from the detected frame synch signal at the receiver device.
- the output of the trellis encoder 350 , and frame synch signal 370 including the encoded control parameters is then multiplexed by multiplexor unit 365 to form a multiplexed signal 380 which is subject to the pilot insertion and RF up-conversion ( FIG. 1 ).
- FIG. 10 illustrates a block diagram of a novel ATSC receiver 500 capable of decoding both the standard and new (robust) bit-streams.
- the receiver device 500 is provided for decoding the two types of bit streams and, particularly employs an extensive control mechanism 550 to properly track the symbols (bytes) belonging to the two symbol streams. It also implements a packet formatter to reformat the new (robust) NS packets.
- a sync detect block 505 detects the frame sync signal present in the received signal 370 ′ that includes the encoded control parameter information associated with the received packets.
- a Decode sync header block 510 is provided to decode the Frame Sync header information and extract the MODE, NRS, NRP and RPP control parameters. These parameters are then sent to a ‘Generate hd_sd_in’ block 515 and ‘Generate ps_hd_sd’ block 520 .
- the Generate ‘hd_sd_in’ block 515 generates control information at packet level based on MODE, NRP and RPP parameters.
- the output of this block is equal to ‘1’ if the packet belongs to NS (new stream) and is equal to ‘0’ if the packet belongs to SS (standard stream).
- This block only starts when a back-end lock (not shown) is obtained.
- the Generate ‘ps_hd_sd’ block 520 is similar to the Generate ‘hd_sd_in’ block 515 except that it is synchronized with the de-interleaver output sync and start up signals when the de-interleaver output start signal (not shown) toggles high.
- the Convolutional bit interleaver block 520 is similar to convolutional byte interleaver specified in the ATSC standard, except that the memory element is 1 bit instead of 1 byte.
- This block 520 is used to track bytes through the convolutional de-interleaver 540 .
- the Trellis interleaver block 525 implements the 12-symbol trellis interleaver.
- the output of this block ‘td_hd_sd’ signal 526 will be greater than 0 (e.g., 1 for H-VSB, 2 for 4-VSB or 3 for pseudo 2-VSB) when the trellis decoder input symbol (or equalizer output symbol) 390 belongs to NS and is equal to 0 when the trellis decoder input symbol 390 belongs to SS.
- the blocks 515 , 520 and 525 in the receiver are similar to the corresponding blocks 315 , 341 and 345 in the transmitter.
- the equalizer 502 additionally uses this signal 526 to get a better estimate of the symbol and the trellis decoder 530 uses this signal in metric calculation.
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- Error Detection And Correction (AREA)
- Compression Or Coding Systems Of Tv Signals (AREA)
- Time-Division Multiplex Systems (AREA)
- Television Systems (AREA)
Priority Applications (7)
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---|---|---|---|
US10/118,876 US7675994B2 (en) | 2001-04-02 | 2002-04-09 | Packet identification mechanism at the transmitter and receiver for an enhanced ATSC 8-VSB system |
CA002449820A CA2449820A1 (en) | 2001-06-04 | 2002-06-03 | Simultaneous transmission of standard 8-vsb and robust 2-vsb (4-vsb) symbols in atsc system |
CNB028112180A CN100347979C (zh) | 2001-06-04 | 2002-06-03 | Atsc系统中标准8-vsb和稳健2-vsb(4-vsb)码元的同时发送 |
PCT/IB2002/002059 WO2002100026A1 (en) | 2001-06-04 | 2002-06-03 | Simultaneous transmission of standard 8-vsb and robust 2-vsb (4-vsb) symbols in atsc system |
KR1020037001630A KR100884909B1 (ko) | 2001-06-04 | 2002-06-03 | Atsc 시스템에서 표준 8-vsb 및 강인한2-vsb(4-vsb) 심볼들의 동시 전송 |
TW091111976A TW591946B (en) | 2001-06-04 | 2002-06-04 | Packet identification mechanism at the transmitter and receiver for an enhanced ATSC 8-VSB system |
ARP020102081A AR034357A1 (es) | 2001-06-04 | 2002-06-04 | Sistema y metodo de transmision digital y el correspondiente sistema de comunicaciones |
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US28078201P | 2001-04-02 | 2001-04-02 | |
US29561601P | 2001-06-04 | 2001-06-04 | |
US10/118,876 US7675994B2 (en) | 2001-04-02 | 2002-04-09 | Packet identification mechanism at the transmitter and receiver for an enhanced ATSC 8-VSB system |
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US20020191712A1 US20020191712A1 (en) | 2002-12-19 |
US7675994B2 true US7675994B2 (en) | 2010-03-09 |
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US10/118,876 Expired - Fee Related US7675994B2 (en) | 2001-04-02 | 2002-04-09 | Packet identification mechanism at the transmitter and receiver for an enhanced ATSC 8-VSB system |
Country Status (7)
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US (1) | US7675994B2 (zh) |
KR (1) | KR100884909B1 (zh) |
CN (1) | CN100347979C (zh) |
AR (1) | AR034357A1 (zh) |
CA (1) | CA2449820A1 (zh) |
TW (1) | TW591946B (zh) |
WO (1) | WO2002100026A1 (zh) |
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Publication number | Publication date |
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CN1543722A (zh) | 2004-11-03 |
WO2002100026A1 (en) | 2002-12-12 |
US20020191712A1 (en) | 2002-12-19 |
AR034357A1 (es) | 2004-02-18 |
TW591946B (en) | 2004-06-11 |
KR100884909B1 (ko) | 2009-02-20 |
KR20030024827A (ko) | 2003-03-26 |
CN100347979C (zh) | 2007-11-07 |
CA2449820A1 (en) | 2002-12-12 |
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